13 Clinical Trials for Various Conditions
ASCEND researchers are partnering with families of children who receive extracorporeal membrane oxygenation (ECMO) after a sudden failure of breathing named pediatric acute respiratory distress syndrome (PARDS). ECMO is a life support technology that uses an artificial lung outside of the body to do the lung's work. ASCEND has two objectives. The first objective is to learn more about children's abilities and quality of life among ECMO-supported children in the year after they leave the pediatric intensive care unit. The second objective is to compare short and long-term patient outcomes in two groups of children: one group managed with a mechanical ventilation protocol that reserves the use of extracorporeal membrane oxygenation (ECMO) until protocol failure to another group supported on ECMO per usual care.
Severe pediatric acute respiratory distress syndrome (PARDS) is a life-threatening and frequent problem experienced by thousands of children each year. Little evidence supports current supportive practices during their critical illness. The overall objective of this study is to identify the best positional and/or ventilation practice that leads to improved patient outcomes in these critically ill children. We hypothesize that children with high moderate-severe PARDS treated with either prone positioning or high-frequency oscillatory ventilation (HFOV) will demonstrate more days off the ventilator when compared to children treated with supine positioning or conventional mechanical ventilation (CMV).
Acute Lung Injury (ALI) and the more severe Acute Respiratory Distress Syndrome (ARDS) are a significant problem in Pediatric Intensive Care Units, affecting up to 16 of every 1000 children admitted to these units. These disorders carry with them high mortality rates as well as numerous long-term effects for the surviving children. As the effects of these diseases have significant social and economic ramifications for affected children and their families, research on the development of ALI/ARDS could significantly change how physicians understand the disease and treat patients. There are a wide range of problems which make certain PICU patients more likely to develop either ALI or ARDS. This research aims to determine which of these children are at the greatest risk for ALI/ARDS by examining differences in plasma biomarkers and in DNA of a large number of PICU patients. We are hypothesizing that significant differences in the level of specific plasma biomarkers or in the frequency of specific DNA variants exist in children who develop ALI/ARDS.
Lung units which participate in gas exchange are known as 'recruited' lung. Patients with lung injury suffer from a proportion of units which do not participate in gas exchange (i.e. the derecruited state), which results in impaired gas exchange and induces an inflammatory cascade. Currently, there is no clinical practice guideline in our intensive care unit regarding lung recruitment strategies for children with lung injury. While many studies have demonstrated efficacy (ability to open the lung) and safety of recruitment maneuvers in adults, no such studies have been performed in children. The primary purpose of this study is therefore to demonstrate the safety and efficacy of a recruitment protocol designed to maximally recruit collapsed lung in children with acute lung injury. Each study patient will follow a recruitment protocol (see Appendix 2). Two 'controls' will be utilized in this study: baseline ventilation (no recruitment maneuver) and the open lung approach (a sustained inflation followed by increased PEEP). Efficacy will be defined as an improvement in lung volume (as measured by nitrogen washout and electrical impedance tomography), and by an improvement in measured arterial partial pressure of oxygen. Safety will be defined as the incidence of barotrauma and hemodynamic consequences which occur during the protocol. A secondary purpose of this study will be to further validate electrical impedance tomography (EIT) as a non-invasive tool describing the lung parenchyma by comparing it to an accepted standard method of measuring lung volumes, the multiple breath nitrogen washout technique. Validation of EIT would allow clinicians to have a non-invasive image of a patient's lungs without the risks imposed by radiography. The information we learn will be instrumental in defining an optimal strategy for lung recruitment in children with lung injury.
Acute lung injury (ALI)/Acute Respiratory Distress Syndrome (ARDS) is a severe lung condition that causes respiratory failure. This study will examine if differences in genes and biomarkers involved in the inflammation and blood clotting process may affect the severity of and recovery from ALI/ARDS in children hospitalized with the condition.
PALIVE 1 is an observational multicenter study on mechanical ventilation strategies used in children with an acute lung injury (ALI). The objective of the study is to describe mechanical ventilation strategies in children with an ALI. Our hypothesis is that daily clinical practice is heterogenous among pediatric intensivists as few pediatric data exists on optimal mechanical ventilation strategies in this group of patients. Furthermore, different strategies may affect patient outcome.
The study is a chart review of all children admitted over a two year period with the diagnosis of acute respiratory distress syndrome. Short term outcomes, such as mortality, length of ventilation and length of stay, will be reviewed. Factors that impact these outcomes will also be reviewed.
The goal of this observational study is to determine if Intrapulmonary Percussive Ventilation (IPV) improves lung compliance in children receiving conventional invasive mechanical ventilation. The main questions it aims to answer are: 1. Does IPV improve lung compliance 15 minutes after and 3 hours after receiving one treatment in a heterogeneous group of pediatric patients? 2. Does IPV improve lung compliance in patients with Pediatric Acute Respiratory Distress Syndrome (PARDS), and what is the degree of change compared to those without PARDS? 3. What is the effect of IPV on lung compliance according to PARDS severity (mild-moderate disease vs. severe disease). 4. What is the incidence of adverse effects of IPV? Participants will receive IPV because their medical team feels it will help their lung recovery and has already determined them to be safe candidates to receive this therapy, which is a standard airway clearance modality already routinely used in our PICU. Nothing additional will happen to participants as a result of this study. Enrolling in this study simply gives the study team permission to collect specific health information that identifies your child for research purposes, which may include results from medical tests found in their medical record and information from your child's bedside monitor and ventilator. This information will be collected before and after the IPV treatments to evaluate their response to the therapy.
The study design will allow investigators to describe usual care in each PICU and identify the facilitating and restraining factors impacting the implementation of R2 at each PICU. The purpose of this pilot study is to improve the care, environment, daily routine and sleep patterns of children in the PICU. The goal of this study is to learn what can be improved to support a critically ill child's healing and circadian rhythms.
The purpose of this study has two major goals: 1) to measure the amount of two specific hormones interleukin (IL)-10 and interleukin (IL)-12p70 in mucous and blood; and 2) compare the hormone levels in two specific areas of the lung called the trachea (upper airway) and the bronchioles (lower airway). The hormones IL-10 and IL-12p70 are cytokines, special hormones cells use to communicate with each other during inflammation or infection. Cytokines can be measured in mucous and blood. The balance of one cytokine compared to another help doctors to understand how people respond differently to infection. Unfortunately, the amount of IL-10 and IL-12p70 is not known in children, especially children with a lung infection. In addition, we do not know if the balance of these cytokines differ in various regions of the lung. We believe the balance of IL-10 and IL-12p70 is similar whether measured in the upper or lower airways.
Acute lung injury (ALI) and acute respiratory distress syndrome (ARDS) are devastating disorders associated with lung inflammation, low oxygen levels and respiratory failure in children. Prevalence of ALI ranges from 2.2 to 12 per 100,000 children per year. Using these estimates, up to 9,000 children each year will develop ALI/ARDS, which may cause upto 2,000 deaths per year. Currently, there are no specific therapies directed against ARDS/ALI in children. In adult patients, use of steroids early in the course of ARDS appears promising. There are no published clinical trials examining the use of steroids for the treatment of ALI/ARDS in children. Hypothesis: Subjects with ALI/ARDS receiving steroids early in the course of disease (within 72 hours) and longer than 7 days will have improved clinical outcomes as compared to placebo control group as defined by (a) a decreased duration of mechanical ventilation and (b) significantly increased PaO2/FiO2 ratios.
This is a prospective observational follow-up study of children enrolled in a single center randomized controlled trial (REDvent). Nearly 50% of adult Acute Respiratory Distress Syndrome (ARDS) survivors are left with significant abnormalities in pulmonary, physical, neurocognitive function and Health Related Quality of Life (HRQL) which may persist for years.Data in pediatric ARDS (PARDS) survivors is limited. More importantly, there are no data identifying potentially modifiable factors during ICU care which are associated with long term impairments, which may include medication choices, or complications from mechanical ventilator (MV) management in the ICU including ventilator induced lung injury (VILI) or ventilator induced diaphragm dysfunction (VIDD). The Real-time effort driven ventilator (REDvent) trial is testing a ventialtor management algorithm which may prevent VIDD and VILI. VIDD and VILI have strong biologic plausibility to affect the post-ICU health of children with likely sustained effects on lung repair and muscle strength. Moreover, common medication choices (i.e. neuromuscular blockade, corticosteroids) or other complications in the ICU (i.e. delirium) are likely to have independent effects on the long term health of these children. This proposed study will obtain serial follow-up of subjects enrolled in REDvent (intervention and control patients). The central hypothesis is that preventing VIDD, VILI and shortening time on MV will have a measureable impact on longer term function by mitigating abnormalities in pulmonary function (PFTs), neurocognitive function and emotional health, functional status and HRQL after hospital discharge for children with PARDS. For all domains, the investigators will determine the frequency, severity and trajectory of recovery of abnormalities amongst PARDS survivors after ICU discharge, identify risk factors for their development, and determine if they are prevented by REDvent. They will leverage the detailed and study specific respiratory physiology data being obtained in REDvent, and use a variety of multi-variable models for comprehensive analysis. Completion of this study will enable the investigators to identify ICU related therapies associated with poor long term outcome, and determine whether they can be mitigated by REDvent.
Our previous data demonstrated that premature infants treated with inhaled nitric oxide at birth had improved neurodevelopmental outcomes at two years corrected age. We now wish to determine whether this benefit continues through school age.